Calculation - impact force on a bollard

AI Thread Summary
The discussion centers on calculating the wall thickness required for a 150mm external diameter bollard to withstand the impact force from a 30mph vehicle, which generates 667kJ of energy. The original bollard, with a 219mm diameter and 10mm wall thickness, successfully withstood the impact. An estimation of 46mm wall thickness for the second case was proposed, using the second moment of area for comparison. There is a debate on whether to use elastic or plastic section modulus for determining the required thickness based on failure criteria. Additionally, the possibility of calculating thickness without comparison to the initial case is explored, suggesting the use of equivalent static force derived from the energy information.
Ziv7
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i need to work some estimations for this case for an assignment

30mph vehicle hits a bollard with 667kJ
bollard height = 1m
vehicle hits the bollard at approx height of 0.7m
material = mild steel
ultimate strength = 400mpa

in one case the bollard is 219mm ext diameter with 10mm wall thickness
the information given is that the bollard withstood the impact

The second case i need to work out what the wall thickness should be for a 150mm ext diameter bollard to withstand the same impact

assume the failure won't be at the floor fixings
for the time being i will ignore the fact the car deforms as well as the bollard, and there are different levels of impact(front bumper, engine etc.)
 
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i've worked out 46mm wall thickness for the second case if i equate second moment of area of the first and second case.
is that a fair estimation?
 
If a limiting stress isthe crierion, then use elastic section modulus (I/y), rather than second moment of area I. If collapse is the criterion use plastic section modulus.
 
Thanks for the advice

Do you know of a way to calculate the thickness without comparing it to the initial case?
 
The information on energy given suggests you can obtain an equivalent static force.
 
what do you mean?
 
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